Our innovation is based on ToF cameras and cutting-edge signal processing and treatment to develop the first non irradiating imaging medical device allowing the realization of predictive models of internal structures movement starting from surface movements.
This technology gathers every means to monitor patient positioning and movement (intra and inter-fraction), patient surveillance, respiratory gating, relative patient / equipment position and potentially patient Identification!
Our innovation responds to the main challenge of radiotherapy, which is to maximize irradiation dose delivery on the tumor while avoiding adverse toxicity on healthy tissue and high risk organs.
New monitoring application (patentability analysis ongoing)
Patient positioning in radiotherapy based on surface imaging using time of flight cameras. Med Phys. 2016
Patient positioning using surface images from Time-of-Flight (ToF) cameras, ESTRO, Barcelona, Spain, 2015.
Patient Positioning in Radiotherapy Using Time-of-Flight (ToF) Cameras, (NSS-MIC), Seattle, USA, 2014.
Accuracy of dynamic patient surface monitoring using a time-of-flight camera and B-spline modeling for respiratory motion characterization. Physics in Medicine and Biology, 2012
UMR_S 1101 - LATIM
Equipe IPAL - Information Physiologique pour l'Appareil Locomoteur
FR : IDDN.FR.001.190002.000.S.P.2017.000.10000 - filed on the 05-02-2017